Yoon Jae Woong, Song Seok Ho, Magnusson Robert
Department of Electrical Engineering, University of Texas - Arlington, Box 19016, Arlington, TX 76019, USA.
Department of Physics, Hanyang University, Seoul, 133-791, KOREA.
Sci Rep. 2015 Dec 17;5:18301. doi: 10.1038/srep18301.
We study spectral singularities and critical field enhancement factors associated with embedded photonic bound states in subwavelength periodic Si films. Ultrahigh-Q resonances supporting field enhancement factor exceeding 10(8) are obtained in the spectral vicinity of exact embedded eigenvalues in spite of deep surface modulation and vertical asymmetry of the given structure. Treating relations between the partial resonance Q and field enhancement factors with an analytical coupled-mode model, we derive a general strategy to maximize the field enhancement associated with these photonic bound states in the presence of material dissipation. The analytical expression for the field enhancement quantitatively agrees with rigorous numerical calculations. Therefore, our results provide a general knowledge for designing practical resonance elements based on optical bound states in the continuum in various applications.
我们研究了与亚波长周期性硅薄膜中嵌入的光子束缚态相关的光谱奇点和临界场增强因子。尽管给定结构存在深度表面调制和垂直不对称性,但在精确嵌入本征值的光谱附近仍获得了支持场增强因子超过10^8的超高Q共振。通过解析耦合模模型处理部分共振Q与场增强因子之间的关系,我们推导出了一种在存在材料耗散的情况下最大化与这些光子束缚态相关的场增强的通用策略。场增强的解析表达式与严格的数值计算定量一致。因此,我们的结果为在各种应用中基于连续统中的光学束缚态设计实际共振元件提供了一般知识。